	org 105
__START_PROGRAM:
	di
	push ix
	push iy
	exx
	push hl
	exx
	ld hl, 0
	add hl, sp
	ld (__CALL_BACK__), hl
	ei
#line 0
		ld sp,$FFEF
#line 1
	jp __LABEL__typeface01end
__LABEL__typeface01:
#line 3
		defb $55,$AA,$55,$AA,$55,$AA,$55,$AA
		defb $55,$AA,$55,$AA,$55,$AA,$55,$AA
		defb $55,$AA,$55,$AA,$55,$AA,$55,$AA
		defb $55,$AA,$55,$AA,$55,$AA,$55,$AA
		defb $55,$AA,$55,$AA,$55,$AA,$55,$AA
		defb $55,$AA,$55,$AA,$55,$AA,$55,$AA
		defb $55,$AA,$55,$AA,$55,$AA,$55,$AA
		defb $55,$AA,$55,$AA,$55,$AA,$55,$AA
		defb $55,$AA,$55,$AA,$55,$AA,$55,$AA
		defb $55,$AA,$55,$AA,$55,$AA,$55,$AA
		defb $55,$AA,$55,$AA,$55,$AA,$55,$AA
		defb $55,$AA,$55,$AA,$55,$AA,$55,$AA
		defb $55,$AA,$55,$AA,$55,$AA,$55,$AA
		defb $55,$AA,$55,$AA,$55,$AA,$55,$AA
		defb $55,$AA,$55,$AA,$55,$AA,$55,$AA
		defb $55,$AA,$55,$AA,$55,$AA,$55,$AA
		defb $55,$AA,$55,$AA,$55,$AA,$55,$AA
		defb $55,$AA,$55,$AA,$55,$AA,$55,$AA
		defb $55,$AA,$55,$AA,$55,$AA,$55,$AA
		defb $55,$AA,$55,$AA,$55,$AA,$55,$AA
		defb $55,$AA,$55,$AA,$55,$AA,$55,$AA
		defb $55,$AA,$55,$AA,$55,$AA,$55,$AA
		defb $55,$AA,$55,$AA,$55,$AA,$55,$AA
		defb $55,$AA,$55,$AA,$55,$AA,$55,$AA
		defb $55,$AA,$55,$AA,$55,$AA,$55,$AA
		defb $55,$AA,$55,$AA,$55,$AA,$55,$AA
		defb $55,$AA,$55,$AA,$55,$AA,$55,$AA
		defb $55,$AA,$55,$AA,$55,$AA,$55,$AA
		defb $55,$AA,$55,$AA,$55,$AA,$55,$AA
		defb $55,$AA,$55,$AA,$55,$AA,$55,$AA
		defb $55,$AA,$55,$AA,$55,$AA,$55,$AA
		defb $55,$AA,$55,$AA,$55,$AA,$55,$AA
		defb 000h,000h,000h,000h,000h,000h,000h,000h
		defb 018h,03ch,03ch,018h,018h,000h,018h,000h
		defb 036h,036h,036h,000h,000h,000h,000h,000h
		defb 036h,036h,07fh,036h,07fh,036h,036h,000h
		defb 018h,03eh,060h,03ch,006h,07ch,018h,000h
		defb 000h,063h,066h,00ch,018h,033h,063h,000h
		defb 01ch,036h,01ch,03bh,06eh,066h,03bh,000h
		defb 00ch,00ch,018h,000h,000h,000h,000h,000h
		defb 00ch,018h,030h,030h,030h,018h,00ch,000h
		defb 030h,018h,00ch,00ch,00ch,018h,030h,000h
		defb 000h,066h,03ch,0ffh,03ch,066h,000h,000h
		defb 000h,018h,018h,07eh,018h,018h,000h,000h
		defb 000h,000h,000h,000h,018h,008h,010h,000h
		defb 000h,000h,000h,07eh,000h,000h,000h,000h
		defb 000h,000h,000h,000h,000h,018h,018h,000h
		defb 003h,006h,00ch,018h,030h,060h,0c0h,000h
		defb 01ch,026h,063h,063h,063h,032h,01ch,000h
		defb 00ch,01ch,00ch,00ch,00ch,00ch,03fh,000h
		defb 03eh,063h,007h,01eh,03ch,070h,07fh,000h
		defb 03fh,006h,00ch,01eh,003h,063h,03eh,000h
		defb 00eh,01eh,036h,066h,07fh,006h,006h,000h
		defb 07eh,060h,07eh,003h,003h,063h,03eh,000h
		defb 01ch,030h,060h,07eh,063h,063h,03eh,000h
		defb 07fh,063h,006h,00ch,018h,018h,018h,000h
		defb 03ch,062h,072h,03ch,04fh,043h,03eh,000h
		defb 03eh,063h,063h,03fh,003h,006h,03ch,000h
		defb 000h,000h,018h,018h,000h,018h,018h,000h
		defb 000h,018h,018h,000h,038h,018h,030h,000h
		defb 00ch,018h,030h,060h,030h,018h,00ch,000h
		defb 000h,000h,07eh,000h,07eh,000h,000h,000h
		defb 030h,018h,00ch,006h,00ch,018h,030h,000h
		defb 07ch,0c6h,006h,01ch,030h,000h,030h,000h
		defb 03eh,063h,06fh,06fh,06fh,060h,03ch,000h
		defb 01ch,036h,063h,063h,07fh,063h,063h,000h
		defb 07eh,063h,063h,07eh,063h,063h,07eh,000h
		defb 01eh,033h,060h,060h,060h,033h,01eh,000h
		defb 07ch,066h,063h,063h,063h,066h,07ch,000h
		defb 03fh,030h,030h,03eh,030h,030h,03fh,000h
		defb 07fh,060h,060h,07eh,060h,060h,060h,000h
		defb 01fh,030h,060h,067h,063h,033h,01fh,000h
		defb 063h,063h,063h,07fh,063h,063h,063h,000h
		defb 03fh,00ch,00ch,00ch,00ch,00ch,03fh,000h
		defb 003h,003h,003h,003h,003h,063h,03eh,000h
		defb 063h,066h,06ch,078h,07ch,06eh,067h,000h
		defb 030h,030h,030h,030h,030h,030h,03fh,000h
		defb 063h,077h,07fh,07fh,06bh,063h,063h,000h
		defb 063h,073h,07bh,07fh,06fh,067h,063h,000h
		defb 03eh,063h,063h,063h,063h,063h,03eh,000h
		defb 07eh,063h,063h,063h,07eh,060h,060h,000h
		defb 03eh,063h,063h,063h,06fh,066h,03dh,000h
		defb 07eh,063h,063h,067h,07ch,06eh,067h,000h
		defb 03ch,066h,060h,03eh,003h,063h,03eh,000h
		defb 03fh,00ch,00ch,00ch,00ch,00ch,00ch,000h
		defb 063h,063h,063h,063h,063h,063h,03eh,000h
		defb 063h,063h,063h,077h,03eh,01ch,008h,000h
		defb 063h,063h,06bh,07fh,07fh,077h,063h,000h
		defb 063h,077h,03eh,01ch,03eh,077h,063h,000h
		defb 033h,033h,033h,01eh,00ch,00ch,00ch,000h
		defb 07fh,007h,00eh,01ch,038h,070h,07fh,000h
		defb 000h,000h,000h,03ch,03ch,000h,000h,000h
		defb 000h,000h,000h,07fh,07fh,000h,000h,000h
		defb 000h,000h,000h,000h,000h,018h,018h,000h
		defb 018h,03ch,03ch,018h,018h,000h,018h,000h
		defb 03ch,042h,09dh,0a1h,0a1h,09dh,042h,03ch
		defb 030h,018h,00ch,000h,000h,000h,000h,000h
		defb 01ch,036h,063h,063h,07fh,063h,063h,000h
		defb 07eh,063h,063h,07eh,063h,063h,07eh,000h
		defb 01eh,033h,060h,060h,060h,033h,01eh,000h
		defb 07ch,066h,063h,063h,063h,066h,07ch,000h
		defb 03fh,030h,030h,03eh,030h,030h,03fh,000h
		defb 07fh,060h,060h,07eh,060h,060h,060h,000h
		defb 01fh,030h,060h,067h,063h,033h,01fh,000h
		defb 063h,063h,063h,07fh,063h,063h,063h,000h
		defb 03fh,00ch,00ch,00ch,00ch,00ch,03fh,000h
		defb 003h,003h,003h,003h,003h,063h,03eh,000h
		defb 063h,066h,06ch,078h,07ch,06eh,067h,000h
		defb 030h,030h,030h,030h,030h,030h,03fh,000h
		defb 063h,077h,07fh,07fh,06bh,063h,063h,000h
		defb 063h,073h,07bh,07fh,06fh,067h,063h,000h
		defb 03eh,063h,063h,063h,063h,063h,03eh,000h
		defb 07eh,063h,063h,063h,07eh,060h,060h,000h
		defb 03eh,063h,063h,063h,06fh,066h,03dh,000h
		defb 07eh,063h,063h,067h,07ch,06eh,067h,000h
		defb 03ch,066h,060h,03eh,003h,063h,03eh,000h
		defb 03fh,00ch,00ch,00ch,00ch,00ch,00ch,000h
		defb 063h,063h,063h,063h,063h,063h,03eh,000h
		defb 063h,063h,063h,077h,03eh,01ch,008h,000h
		defb 063h,063h,06bh,07fh,07fh,077h,063h,000h
		defb 063h,077h,03eh,01ch,03eh,077h,063h,000h
		defb 033h,033h,033h,01eh,00ch,00ch,00ch,000h
		defb 07fh,007h,00eh,01ch,038h,070h,07fh,000h
		defb 000h,000h,000h,03ch,03ch,000h,000h,000h
		defb 000h,000h,000h,07fh,07fh,000h,000h,000h
		defb 000h,000h,000h,000h,000h,018h,018h,000h
		defb 018h,03ch,03ch,018h,018h,000h,018h,000h
		defb 03ch,042h,09dh,0a1h,0a1h,09dh,042h,03ch
		defb %00000000
		defb %00000000
		defb %00000000
		defb %00000000
		defb %00000000
		defb %00000000
		defb %00000000
		defb %00000000
		defb %00000000
		defb %00100010
		defb %00000000
		defb %10001000
		defb %00000000
		defb %00100010
		defb %00000000
		defb %10001000
		defb %00100010
		defb %00100010
		defb %10001000
		defb %10001000
		defb %00100010
		defb %00100010
		defb %10001000
		defb %10001000
		defb %10101010
		defb %00100010
		defb %10101010
		defb %10001000
		defb %10101010
		defb %00100010
		defb %10101010
		defb %10001000
		defb %10101010
		defb %00110011
		defb %10101010
		defb %11001100
		defb %10101010
		defb %00110011
		defb %10101010
		defb %11001100
		defb %10101010
		defb %10111011
		defb %10101010
		defb %11101110
		defb %10101010
		defb %10111011
		defb %10101010
		defb %11101110
		defb %10111011
		defb %10111011
		defb %11101110
		defb %11101110
		defb %10111011
		defb %10111011
		defb %11101110
		defb %11101110
		defb %11111111
		defb %10111011
		defb %11111111
		defb %11101110
		defb %11111111
		defb %10111011
		defb %11111111
		defb %11101110
		defb %11111111
		defb %11111111
		defb %11111111
		defb %11111111
		defb %11111111
		defb %11111111
		defb %11111111
		defb %11111111
#line 203
__LABEL__typeface01end:
	ld hl, 0
	ld (_i5), hl
	jp __LABEL0
__LABEL3:
	ld hl, 0
	ld (_i4), hl
	jp __LABEL5
__LABEL8:
	ld hl, (_seed)
	ld (_ee2), hl
	ld hl, (_seed)
	call _smsrnd
	ld (_seed), hl
	ld (_ee2), hl
	ld hl, (_seed)
	call _smsrnd
	ld (_seed), hl
	ld hl, __LABEL__typeface01
	push hl
	ld de, 127
	ld hl, (_seed)
	call __BAND16
	ld a, l
	push af
	ld hl, (_ee2)
	ld de, 9
	call __MODU16
	ld de, 128
	add hl, de
	push hl
	ld hl, (_i5)
	push hl
	ld hl, (_i4)
	push hl
	call _brodputchar
__LABEL9:
	ld hl, (_i4)
	inc hl
	ld (_i4), hl
__LABEL5:
	ld hl, 31
	ld de, (_i4)
	or a
	sbc hl, de
	jp nc, __LABEL8
__LABEL7:
__LABEL4:
	ld hl, (_i5)
	inc hl
	ld (_i5), hl
__LABEL0:
	ld hl, 23
	ld de, (_i5)
	or a
	sbc hl, de
	jp nc, __LABEL3
__LABEL2:
	ld hl, 0
	ld (_i5), hl
	jp __LABEL10
__LABEL13:
	ld hl, 0
	ld (_i4), hl
	jp __LABEL15
__LABEL18:
	ld hl, __LABEL__typeface01
	push hl
	ld a, 77
	push af
	ld hl, (_i5)
	ld de, 16
	call __MUL16_FAST
	ex de, hl
	ld hl, (_i4)
	add hl, de
	push hl
	ld hl, (_i5)
	ld de, 7
	add hl, de
	push hl
	ld hl, (_i4)
	ld de, 15
	add hl, de
	push hl
	call _brodputchar
__LABEL19:
	ld hl, (_i4)
	inc hl
	ld (_i4), hl
__LABEL15:
	ld hl, 15
	ld de, (_i4)
	or a
	sbc hl, de
	jp nc, __LABEL18
__LABEL17:
__LABEL14:
	ld hl, (_i5)
	inc hl
	ld (_i5), hl
__LABEL10:
	ld hl, 15
	ld de, (_i5)
	or a
	sbc hl, de
	jp nc, __LABEL13
__LABEL12:
	ld hl, 4
	ld (_ex0), hl
	ld hl, 5
	ld (_ey0), hl
	ld hl, 0
	ld (_ee0), hl
__LABEL20:
	ld hl, __LABEL__typeface01
	push hl
	ld a, 56
	push af
	ld de, 127
	ld hl, (_ee0)
	call __BAND16
	push hl
	ld hl, (_ey0)
	push hl
	ld hl, (_ex0)
	push hl
	call _brodputchar
	ld hl, __LABEL__typeface01
	push hl
	ld a, 56
	push af
	ld hl, (_ee0)
	ld de, 10
	call __MODU16
	ld de, 48
	add hl, de
	push hl
	ld hl, 1
	push hl
	ld hl, 5
	push hl
	call _brodputchar
	ld hl, __LABEL__typeface01
	push hl
	ld a, 56
	push af
	ld hl, (_ee0)
	ld de, 10
	call __DIVU16
	ld de, 0
	push de
	push hl
	ld de, 0
	ld hl, 10
	call __SWAP32
	call __MODI32
	ld bc, 0
	push bc
	ld bc, 48
	push bc
	pop bc
	add hl, bc
	ex de, hl
	pop bc
	adc hl, bc
	ex de, hl
	push hl
	ld hl, 1
	push hl
	ld hl, 4
	push hl
	call _brodputchar
	ld hl, __LABEL__typeface01
	push hl
	ld a, 56
	push af
	ld hl, (_ee0)
	ld de, 100
	call __DIVU16
	ld de, 0
	push de
	push hl
	ld de, 0
	ld hl, 10
	call __SWAP32
	call __MODI32
	ld bc, 0
	push bc
	ld bc, 48
	push bc
	pop bc
	add hl, bc
	ex de, hl
	pop bc
	adc hl, bc
	ex de, hl
	push hl
	ld hl, 1
	push hl
	ld hl, 3
	push hl
	call _brodputchar
	ld hl, __LABEL__typeface01
	push hl
	ld a, 56
	push af
	ld hl, (_ee0)
	ld de, 1000
	call __DIVU16
	ld de, 0
	push de
	push hl
	ld de, 0
	ld hl, 10
	call __SWAP32
	call __MODI32
	ld bc, 0
	push bc
	ld bc, 48
	push bc
	pop bc
	add hl, bc
	ex de, hl
	pop bc
	adc hl, bc
	ex de, hl
	push hl
	ld hl, 1
	push hl
	ld hl, 2
	push hl
	call _brodputchar
	ld hl, __LABEL__typeface01
	push hl
	ld a, 56
	push af
	ld hl, (_ee0)
	ld de, 10000
	call __DIVU16
	ld de, 0
	push de
	push hl
	ld de, 0
	ld hl, 10
	call __SWAP32
	call __MODI32
	ld bc, 0
	push bc
	ld bc, 48
	push bc
	pop bc
	add hl, bc
	ex de, hl
	pop bc
	adc hl, bc
	ex de, hl
	push hl
	ld hl, 1
	push hl
	ld hl, 1
	push hl
	call _brodputchar
	ld bc, 31
	in a, (c)
	cpl
	ld l, a
	ld h, 0
	ld (_ee1), hl
	ld hl, __LABEL__typeface01
	push hl
	ld a, 56
	push af
	ld hl, (_ee1)
	ld de, 10
	call __MODU16
	ld de, 48
	add hl, de
	push hl
	ld hl, 2
	push hl
	ld hl, 3
	push hl
	call _brodputchar
	ld hl, __LABEL__typeface01
	push hl
	ld a, 56
	push af
	ld hl, (_ee1)
	ld de, 10
	call __DIVU16
	ld de, 0
	push de
	push hl
	ld de, 0
	ld hl, 10
	call __SWAP32
	call __MODI32
	ld bc, 0
	push bc
	ld bc, 48
	push bc
	pop bc
	add hl, bc
	ex de, hl
	pop bc
	adc hl, bc
	ex de, hl
	push hl
	ld hl, 2
	push hl
	ld hl, 2
	push hl
	call _brodputchar
	ld hl, __LABEL__typeface01
	push hl
	ld a, 56
	push af
	ld hl, (_ee1)
	ld de, 100
	call __DIVU16
	ld de, 0
	push de
	push hl
	ld de, 0
	ld hl, 10
	call __SWAP32
	call __MODI32
	ld bc, 0
	push bc
	ld bc, 48
	push bc
	pop bc
	add hl, bc
	ex de, hl
	pop bc
	adc hl, bc
	ex de, hl
	push hl
	ld hl, 2
	push hl
	ld hl, 1
	push hl
	call _brodputchar
	ld de, 1
	ld hl, (_ee1)
	call __BAND16
	ex de, hl
	ld hl, (_ex0)
	or a
	sbc hl, de
	push hl
	ld de, 2
	ld hl, (_ee1)
	call __BAND16
	srl h
	rr l
	ex de, hl
	pop hl
	add hl, de
	ld (_ex0), hl
	ld de, 4
	ld hl, (_ee1)
	call __BAND16
	ld de, 4
	call __DIVU16
	ex de, hl
	ld hl, (_ey0)
	or a
	sbc hl, de
	push hl
	ld de, 8
	ld hl, (_ee1)
	call __BAND16
	ld de, 8
	call __DIVU16
	ex de, hl
	pop hl
	add hl, de
	ld (_ey0), hl
	ld hl, (_ee0)
	inc hl
	ld (_ee0), hl
	jp __LABEL20
__LABEL21:
__LABEL22:
	ld hl, 16384
	ld (_eee), hl
	jp __LABEL24
__LABEL27:
	ld hl, (_seed)
	call _smsrnd
	ld (_seed), hl
	ld a, l
	ld hl, (_eee)
	ld (hl), a
__LABEL28:
	ld hl, (_eee)
	inc hl
	ld (_eee), hl
__LABEL24:
	ld hl, 23295
	ld de, (_eee)
	or a
	sbc hl, de
	jp nc, __LABEL27
__LABEL26:
	jp __LABEL22
__LABEL23:
	ld hl, 0
	ld b, h
	ld c, l
__END_PROGRAM:
	di
	ld hl, (__CALL_BACK__)
	ld sp, hl
	exx
	pop hl
	exx
	pop iy
	pop ix
	ei
	ret
__CALL_BACK__:
	DEFW 0
_pacmandelay:
	push ix
	ld ix, 0
	add ix, sp
#line 1
		ld b, (ix+5)
		ld c, (ix+4)
		push bc
pacmandelayloop:
		dec bc
		ld a,b
		or c
		jp nz,pacmandelayloop
		pop bc
#line 10
_pacmandelay__leave:
	ld sp, ix
	pop ix
	exx
	pop hl
	ex (sp), hl
	exx
	ret
_smsrnd:
#line 2
		ld  d, h
		ld  e, l
		ld  a, d
		ld  h, e
		ld  l, 253
		or  a
		sbc  hl, de
		sbc  a, 0
		sbc  hl, de
		ld  d, 0
		sbc  a, d
		ld  e, a
		sbc  hl, de
		jr  nc, smsrndloop
		inc  hl
smsrndloop:
		ret
#line 19
_smsrnd__leave:
	ret
_brodputchar:
	push ix
	ld ix, 0
	add ix, sp
	ld l, (ix+4)
	ld h, (ix+5)
	push hl
	ld l, (ix+6)
	ld h, (ix+7)
	push hl
	ld de, 7
	pop hl
	call __BAND16
	ld de, 32
	call __MUL16_FAST
	ex de, hl
	pop hl
	add hl, de
	ld de, 0
	push de
	push hl
	ld l, (ix+6)
	ld h, (ix+7)
	ld de, 8
	call __DIVU16
	ld de, 0
	push de
	push hl
	ld de, 0
	ld hl, 2048
	call __MUL32
	pop bc
	add hl, bc
	ex de, hl
	pop bc
	adc hl, bc
	ex de, hl
	ld (_brodputchar_tdq), hl
	ld hl, 0
	ld (_brodputchar_tln), hl
	jp __LABEL29
__LABEL32:
	ld hl, (_brodputchar_tdq)
	ld de, 16384
	add hl, de
	push hl
	ld hl, (_brodputchar_tln)
	ld de, 256
	call __MUL16_FAST
	ex de, hl
	pop hl
	add hl, de
	push hl
	ld l, (ix+12)
	ld h, (ix+13)
	push hl
	ld l, (ix+8)
	ld h, (ix+9)
	push hl
	ld de, 255
	pop hl
	call __BAND16
	add hl, hl
	add hl, hl
	add hl, hl
	ex de, hl
	pop hl
	add hl, de
	ex de, hl
	ld hl, (_brodputchar_tln)
	add hl, de
	ld b, h
	ld c, l
	ld a, (bc)
	pop hl
	ld (hl), a
__LABEL33:
	ld hl, (_brodputchar_tln)
	inc hl
	ld (_brodputchar_tln), hl
__LABEL29:
	ld hl, 7
	ld de, (_brodputchar_tln)
	or a
	sbc hl, de
	jp nc, __LABEL32
__LABEL31:
	ld l, (ix+4)
	ld h, (ix+5)
	ld de, 22528
	add hl, de
	push hl
	ld l, (ix+6)
	ld h, (ix+7)
	ld de, 32
	call __MUL16_FAST
	ex de, hl
	pop hl
	add hl, de
	push hl
	ld a, (ix+11)
	pop hl
	ld (hl), a
_brodputchar__leave:
	ld sp, ix
	pop ix
	exx
	pop hl
	pop bc
	pop bc
	pop bc
	pop bc
	ex (sp), hl
	exx
	ret
#line 1 "mul16.asm"
__MUL16:	; Mutiplies HL with the last value stored into de stack
				; Works for both signed and unsigned
	
			PROC
	
			LOCAL __MUL16LOOP
	        LOCAL __MUL16NOADD
			
			ex de, hl
			pop hl		; Return address
			ex (sp), hl ; CALLEE caller convention
	
;;__MUL16_FAST:	; __FASTCALL ENTRY: HL = 1st operand, DE = 2nd Operand
	;;		ld c, h
	;;		ld a, l	 ; C,A => 1st Operand
	;;
	;;		ld hl, 0 ; Accumulator
	;;		ld b, 16
	;;
;;__MUL16LOOP:
	;;		sra c	; C,A >> 1  (Arithmetic)
	;;		rra
	;;
	;;		jr nc, __MUL16NOADD
	;;		add hl, de
	;;
;;__MUL16NOADD:
	;;		sla e
	;;		rl d
	;;			
	;;		djnz __MUL16LOOP
	
__MUL16_FAST:
	        ld b, 16
	        ld a, d
	        ld c, e
	        ex de, hl
	        ld hl, 0
	
__MUL16LOOP:
	        add hl, hl  ; hl << 1
	        sla c
	        rla         ; a,c << 1
	        jp nc, __MUL16NOADD
	        add hl, de
	
__MUL16NOADD:
	        djnz __MUL16LOOP
	
			ret	; Result in hl (16 lower bits)
	
			ENDP
	
#line 794 "example01.zxb"
#line 1 "div32.asm"
#line 1 "neg32.asm"
__ABS32:
		bit 7, d
		ret z
	
__NEG32: ; Negates DEHL (Two's complement)
		ld a, l
		cpl
		ld l, a
	
		ld a, h
		cpl
		ld h, a
	
		ld a, e
		cpl
		ld e, a
		
		ld a, d
		cpl
		ld d, a
	
		inc l
		ret nz
	
		inc h
		ret nz
	
		inc de
		ret
	
#line 2 "div32.asm"
	
				 ; ---------------------------------------------------------
__DIVU32:    ; 32 bit unsigned division
	             ; DEHL = Dividend, Stack Top = Divisor
	             ; OPERANDS P = Dividend, Q = Divisor => OPERATION => P / Q
				 ;
				 ; Changes A, BC DE HL B'C' D'E' H'L'
				 ; ---------------------------------------------------------
	        exx
	        pop hl   ; return address
	        pop de   ; low part
	        ex (sp), hl ; CALLEE Convention ; H'L'D'E' => Dividend
	
__DIVU32START: ; Performs D'E'H'L' / HLDE
	        ; Now switch to DIVIDEND = B'C'BC / DIVISOR = D'E'DE (A / B)
	        push de ; push Lowpart(Q)
			ex de, hl	; DE = HL
	        ld hl, 0
	        exx
	        ld b, h
	        ld c, l
	        pop hl
	        push de
	        ex de, hl
	        ld hl, 0        ; H'L'HL = 0
	        exx
	        pop bc          ; Pop HightPart(B) => B = B'C'BC
	        exx
	
	        ld a, 32 ; Loop count
	
__DIV32LOOP:
	        sll c  ; B'C'BC << 1 ; Output most left bit to carry
	        rl  b
	        exx
	        rl c
	        rl b
	        exx
	
	        adc hl, hl
	        exx
	        adc hl, hl
	        exx
	
	        sbc hl,de
	        exx
	        sbc hl,de
	        exx
	        jp nc, __DIV32NOADD	; use JP inside a loop for being faster
	
	        add hl, de
	        exx
	        adc hl, de
	        exx
	        dec bc
	
__DIV32NOADD:
	        dec a
	        jp nz, __DIV32LOOP	; use JP inside a loop for being faster
	        ; At this point, quotient is stored in B'C'BC and the reminder in H'L'HL
	
	        push hl
	        exx
	        pop de
	        ex de, hl ; D'E'H'L' = 32 bits modulus
	        push bc
	        exx
	        pop de    ; DE = B'C'
	        ld h, b
	        ld l, c   ; DEHL = quotient D'E'H'L' = Modulus
	
	        ret     ; DEHL = quotient, D'E'H'L' = Modulus
	
	
	
__MODU32:    ; 32 bit modulus for 32bit unsigned division
	             ; DEHL = Dividend, Stack Top = Divisor (DE, HL)
	
	        exx
	        pop hl   ; return address
	        pop de   ; low part
	        ex (sp), hl ; CALLEE Convention ; H'L'D'E' => Dividend
	
	        call __DIVU32START	; At return, modulus is at D'E'H'L'
	
__MODU32START:
	
			exx
			push de
			push hl
	
			exx 
			pop hl
			pop de
	
			ret
	
	
__DIVI32:    ; 32 bit signed division
	             ; DEHL = Dividend, Stack Top = Divisor
	             ; A = Dividend, B = Divisor => A / B
	        exx
	        pop hl   ; return address
	        pop de   ; low part
	        ex (sp), hl ; CALLEE Convention ; H'L'D'E' => Dividend
	
__DIVI32START:
			exx
			ld a, d	 ; Save sign
			ex af, af'
			bit 7, d ; Negative?
			call nz, __NEG32 ; Negates DEHL
	
			exx		; Now works with H'L'D'E'
			ex af, af'
			xor h
			ex af, af'  ; Stores sign of the result for later
	
			bit 7, h ; Negative?
			ex de, hl ; HLDE = DEHL
			call nz, __NEG32
			ex de, hl 
	
			call __DIVU32START
			ex af, af' ; Recovers sign
			and 128	   ; positive?
			ret z
	
			jp __NEG32 ; Negates DEHL and returns from there
			
			
__MODI32:	; 32bits signed division modulus
			exx
	        pop hl   ; return address
	        pop de   ; low part
	        ex (sp), hl ; CALLEE Convention ; H'L'D'E' => Dividend
	
			call __DIVI32START
			jp __MODU32START		
	
#line 795 "example01.zxb"
#line 1 "div16.asm"
	; 16 bit division and modulo functions 
	; for both signed and unsigned values
	
#line 1 "neg16.asm"
	; Negates HL value (16 bit)
__ABS16:
		bit 7, h
		ret z
	
__NEGHL:
		ld a, l			; HL = -HL
		cpl
		ld l, a
		ld a, h
		cpl
		ld h, a
		inc hl
		ret
	
#line 5 "div16.asm"
	
__DIVU16:    ; 16 bit unsigned division
	             ; HL = Dividend, Stack Top = Divisor
	
		;   -- OBSOLETE ; Now uses FASTCALL convention
		;   ex de, hl
	    ;	pop hl      ; Return address
	    ;	ex (sp), hl ; CALLEE Convention
	
__DIVU16_FAST:
	    ld a, h
	    ld c, l
	    ld hl, 0
	    ld b, 16
	
__DIV16LOOP:
	    sll c
	    rla
	    adc hl,hl
	    sbc hl,de
	    jr  nc, __DIV16NOADD
	    add hl,de
	    dec c
	
__DIV16NOADD:
	    djnz __DIV16LOOP
	
	    ex de, hl
	    ld h, a
	    ld l, c
	
	    ret     ; HL = quotient, DE = Mudulus
	
	
	
__MODU16:    ; 16 bit modulus
	             ; HL = Dividend, Stack Top = Divisor
	
	    ;ex de, hl
	    ;pop hl
	    ;ex (sp), hl ; CALLEE Convention
	
	    call __DIVU16_FAST
	    ex de, hl	; hl = reminder (modulus)
					; de = quotient
	
	    ret
	
	
__DIVI16:	; 16 bit signed division
		;	--- The following is OBSOLETE ---
		;	ex de, hl
		;	pop hl
		;	ex (sp), hl 	; CALLEE Convention
	
__DIVI16_FAST:
		ld a, d
		xor h
		ex af, af'		; BIT 7 of a contains result
	
		bit 7, d		; DE is negative?
		jr z, __DIVI16A	
	
		ld a, e			; DE = -DE
		cpl
		ld e, a
		ld a, d
		cpl
		ld d, a
		inc de
	
__DIVI16A:
		bit 7, h		; HL is negative?
		call nz, __NEGHL
	
__DIVI16B:
		call __DIVU16_FAST
		ex af, af'
	
		or a	
		ret p	; return if positive
	    jp __NEGHL
	
		
__MODI16:    ; 16 bit modulus
	             ; HL = Dividend, Stack Top = Divisor
	
	    ;ex de, hl
	    ;pop hl
	    ;ex (sp), hl ; CALLEE Convention
	
	    call __DIVI16_FAST
	    ex de, hl	; hl = reminder (modulus)
					; de = quotient
	
	    ret
	
#line 796 "example01.zxb"
#line 1 "mul32.asm"
#line 1 "_mul32.asm"
	
; Ripped from: http://www.andreadrian.de/oldcpu/z80_number_cruncher.html#moztocid784223
	; Used with permission.
	; Multiplies 32x32 bit integer (DEHL x D'E'H'L')
	; 64bit result is returned in H'L'H L B'C'A C
	
	
__MUL32_64START:
			push hl
			exx
			ld b, h
			ld c, l		; BC = Low Part (A)
			pop hl		; HL = Load Part (B)
			ex de, hl	; DE = Low Part (B), HL = HightPart(A) (must be in B'C')
			push hl
	
			exx
			pop bc		; B'C' = HightPart(A)
			exx			; A = B'C'BC , B = D'E'DE
	
				; multiply routine 32 * 32bit = 64bit
				; h'l'hlb'c'ac = b'c'bc * d'e'de
				; needs register a, changes flags
				;
				; this routine was with tiny differences in the
				; sinclair zx81 rom for the mantissa multiply
	
__LMUL:
	        and     a               ; reset carry flag
	        sbc     hl,hl           ; result bits 32..47 = 0
	        exx
	        sbc     hl,hl           ; result bits 48..63 = 0
	        exx
	        ld      a,b             ; mpr is b'c'ac
	        ld      b,33            ; initialize loop counter
	        jp      __LMULSTART  
	
__LMULLOOP:
	        jr      nc,__LMULNOADD  ; JP is 2 cycles faster than JR. Since it's inside a LOOP
	                                ; it can save up to 33 * 2 = 66 cycles
	                                ; But JR if 3 cycles faster if JUMP not taken!
	        add     hl,de           ; result += mpd
	        exx
	        adc     hl,de
	        exx
	
__LMULNOADD:
	        exx
	        rr      h               ; right shift upper
	        rr      l               ; 32bit of result
	        exx
	        rr      h
	        rr      l
	
__LMULSTART:
	        exx
	        rr      b               ; right shift mpr/
	        rr      c               ; lower 32bit of result
	        exx
	        rra                     ; equivalent to rr a
	        rr      c
	        djnz    __LMULLOOP
	
			ret						; result in h'l'hlb'c'ac
	       
#line 2 "mul32.asm"
	
__MUL32:	; multiplies 32 bit un/signed integer.
				; First operand stored in DEHL, and 2nd onto stack
				; Lowest part of 2nd operand on top of the stack
				; returns the result in DE.HL
			exx
			pop hl	; Return ADDRESS
			pop de	; Low part
			ex (sp), hl ; CALLEE -> HL = High part
			ex de, hl
			call __MUL32_64START
	
__TO32BIT:  ; Converts H'L'HLB'C'AC to DEHL (Discards H'L'HL)
			exx
			push bc
			exx
			pop de
			ld h, a
			ld l, c
			ret
	
	
#line 797 "example01.zxb"
#line 1 "band16.asm"
; vim:ts=4:et:
	; FASTCALL bitwise and16 version.
	; result in hl 
; __FASTCALL__ version (operands: A, H)
	; Performs 16bit or 16bit and returns the boolean
; Input: HL, DE
; Output: HL <- HL AND DE
	
__BAND16:
		ld a, h
		and d
	    ld h, a
	
	    ld a, l
	    and e
	    ld l, a
	
	    ret 
	
#line 798 "example01.zxb"
#line 1 "swap32.asm"
	; Exchanges current DE HL with the
	; ones in the stack
	
__SWAP32:
		pop bc ; Return address
	
		exx
		pop hl	; exx'
		pop de
	
		exx
		push de ; exx
		push hl
	
		exx		; exx '
		push de
		push hl
		
		exx		; exx
		pop hl
		pop de
	
		push bc
	
		ret
	
#line 799 "example01.zxb"
	
ZXBASIC_USER_DATA:
	_eee EQU 57362
	_seed EQU 57364
	_ee0 EQU 57360
	_ee1 EQU 57370
	_ee2 EQU 57366
	_ee3 EQU 57368
	_ecsp EQU 57372
	_ecsq EQU 57374
	_ex0 EQU 57376
	_ey0 EQU 57378
	_ej0 EQU 57380
	_ej1 EQU 57382
	_i5 EQU 57384
	_i4 EQU 57386
	_brodputchar_tln EQU 57344
	_brodputchar_tdq EQU 57346
	; Defines DATA END --> HEAP size is 0
ZXBASIC_USER_DATA_END EQU ZXBASIC_MEM_HEAP
	; Defines USER DATA Length in bytes
ZXBASIC_USER_DATA_LEN EQU ZXBASIC_USER_DATA_END - ZXBASIC_USER_DATA
	END
